DE1944256C3 - Method and form for making a mast from concrete - Google Patents

Description

The invention relates to a method for manufacturing a mast from one of in diameter stepped pipe sections formed jacket and a concrete filling.

In a known method of this type (US Pat. No. 1018,754), concreting takes place gradually according to the gradation of the pipe section!:, which is cumbersome and time-consuming is.

The German patent specification 727 079 also discloses a method for the production of ice concrete hollow masts became known, in which after setting up the outer formwork as inner formwork in this Telescope-like telescoping conical pipe sections introduced and by a cable pull be pulled apart. In addition, U.S. Patent 763,372 has a telescopic one Water tower became known, in which the individual sections of the telescope through indented water be lifted.

The invention is now based on the object of using the method of the type mentioned at the beginning to improve that a mast can be made without prior erection of a mast-high formwork : <ann. This object is achieved according to the invention, 3 in that a telescopic shape in a rigid foundation is anchored with mutually sealed sections that in this form liquid concrete is pumped in until the telescopic form has reached its extended position, and that the pressure of the liquid Maintain b-'tons until hardened will.

The pumped-in concrete first lifts the telescopic section of the smallest diameter during its Hardening while fresh concrete is poured into the bottom of the telescope. As the individual sections interlocked with each other and also seen with pressure seals \, they are in held in alignment in the vertical direction while they are being pushed apart, and there is none Need to use any other shapes. Inside the mast is the hydraulic Maintain pressure so that the individual sections are stiffened to one another. The hydraulic one Pressure is terminated by closing a valve or a del. At the inlet channel of the concrete, when the concrete hardens.

One of the advantages of the method according to the invention is the elimination of any prejudice to be erected Formwork. There is also no need to remove the formwork after the telescope has been extended and hardened of the concrete. Because the extension of the telescopic form takes place through the pressure of the concrete, it is necessary also no mechanical extractor.

The concrete is advantageously pumped into the section adjacent to the foundation.

To carry out the procedure according to the Erfinil'.mg tension wires can be stretched between the top section and the foundation within the mold between the top section and the foundation in the extended position the shape are taut. These tension wires are used in an advantageous manner after the extension shape to absorb the pressure of the liquid concrete and thus limit the extension of the mast. This means that lightweight telescopes made of plastic or sturdy paper tube or made of thin metal can be used.

The section with the smallest diameter has at least one opening for the passage of air when filling the concrete and causes after subsequent closure with concrete a hydraulic seal of the mast.

The telescopic shape can also advantageously be used for carrying out the method according to the invention be designed that the upper end of a portion with a larger diameter has an inner circumferential ring and the lower end of a smaller diameter portion has an outer peripheral ring having. This closes the individual sections

Home exports through concrete close together. Ils can also have a plurality \ on axial at the lined end of a section with a smaller diameter extending ribs be arranged, and the upper end of a portion of larger diameter may have an inner peripheral ring. In this way, the concrete can advantageously be inserted into the overlapping, I hasten to penetrate the sections and stiffen them thoroughly.

Furthermore, the section with the largest iu Diameter itself form the foundation and be connected to the ground.

The method according to the invention can be carried out not only on land but also under water , in the latter case the telescopic sections be bolted to a rigid foundation at the bottom of the body of water, then underwater by pumping in the concrete from a ship d ': reh a tube in the base section of the luim. dei ruined or solidly with the foundation connected is. the mast is erected vertically. From di "> em grand, the invention is likely to be of considerable importance in underwater drilling and underwater ·>. Have water civil engineering.

In the drawing are examples of the following: Invention shown. It shows

F 1 g. 1 t'a partially cut perspective Looks at the vertically aligned one in the longitudinal direction diverging your sections with tiarin, eriv.ne'em concrete; the contracted 31, Complete the sections before pumping in de- BeU'iis is drawn in Uusirichelian lines,

<- \ ti.2 - .. 'never partially cut, perspective view of a modified Ausiühriini' · κ · πη dc mast, in which the bottom section with the largest diameter is embedded in a rigid foundation instead of locked to it.

3 shows a vertical partial section of the telescopic sight according to F i μ 1 or according to FIG. 2.

F i μ.-I a vertical partial section de - Ma; tes according to FIG. 2.

F i μ. 5 shows an enlarged vertical filing of the mast according to FIGS. 2 unc! 4,

F ig (■> a cross section along the lines 6-6 and

F i g. 7 an enlarged Teüschniti. the one other Training / ur locking and alignment of the telescopic sections relative to each other shows accordingly Section line 7-7 in FIG. 2.

In point 1 the mast is net overall by 10, designated 5 ". The / v its manufacture telescopic form used comprises Tcleskopabschnitte 20, 22 and 24. The top section 24 has a LuftdurehtritlsöffniJng 26. A tension wire 28, or the plurality may or may extend from the uppermost section 24 to the anchor plate 32, which is provided in the concrete base 14. Anchor bolts IS extend from the base 14 into the base section retaining brackets 38, 40 and 42, which can be welded to the bottom lip of the section 20. Am upper part of the portion 20 is attached running in the Unuangsrichiung peripheral ring 36 where the outer wall of the portion 22 abuts (F i g. 3). a Piimpeneinlaß 34 serves for the introduction of pressurized concrete. This Pumpcneinlaß 34 w ', .it a pressure sealing plate 35 displaceable in the vertical direction.

As shown in FIGS. 1 and 3, section 22 has an upper, alignment retaining ring 80 . which rests on the outside of section 24 , and a lower circumferential ring 82 which is also used for alignment and which is fastened to section 22 and rests on the inside of section 20. By the contact of the circumferential rings 36 and 82 , the sections are aligned with one another and guided when pulling apart, while the telescopic movement and the hardening of the concrete c follow.

It can be seen that if tension wires 28 are used, the telescope sections can be made of plastic or sturdy paper tube as well as thin metal. The concrete can be pumped in at different pressures for the purpose of erecting a column with a height of 30 to 4 (-> m and above. Since the telescopic separation of the sections occurs through the pumped concrete, the 7 Λ / um pouring the concrete into the sections part eiime *. It is not necessary that the concrete in the first portion hardens before further concrete is introduced. the concrete is implemented rapidly enough to avoid zn a hardening before all sections filled and are fully ausgestiuiben. V> \ the Column self-stiffened, there is no need for the use of Λ ^ namidräh;: n or V'erspaniiuiu'sseilen, as is necessary with conventional columns. The structural strength is provided by the unit itself they can serve clamping purposes, also remain in place and therefore do not necessarily have to be stripped off, as is the case with conventional forms.

I πι particular application of the invention is ί'ic attachment of business symbols. such as B. at gas stations, or from antennas. D ^; Signs can be placed on section 24 prior to pumping and then lifted with section 24 as the concrete is poured.

Immediately above the Puinneneinlasscs 34 a pin 154 or an unworthy element passes through the section 20 with the largest diameter. which serves as a stop and prevents the upper telescopic sections 22 and 24 from blocking the pump inlet M. The pin 154 can also be used to lift and move the collapsed telescopic form prior to pumping.

In Fig. A modification is shown in FIG. 2, in which the column is formed from a plurality of telescopic sections 106, 10, 110, 112, 114, 116 and 118 , the topmost of which has one or more air passage openings 120 . The bottom section ii) 6 with the largest diameter is inserted into a tubular foundation 178 . Subsequently, a floor 190 is attached to a floor 190 by welding or by another method. The foundation 178 can then be blinded to the ground, as shown in FIG. 4, or set in concrete 126 , as in FIG. 2 shown. The telescopic sections c overlap. This overlap 128 is also shown in FIG. 4 and 5 shown. In Fig. 4, the foundation 178 has a radially inwardly projecting projection 132 which can come to rest with a stop ring 134 connected to the inner surface 130 of the partition 106 . This also creates a hydraulic seal.

Separated by a rupture line, is on the right Side of FIG. 4 shows another example of the overlap 128, in which a radially outwardly protruding Projection 136 is provided at the lower end of the Tcleskopabschnittes 106.

As shown in Fig. 5, the stop ring 134 can be replaced by a plurality of axially Direction running, in the circumferential direction at a distance from one another elements, which with the section 108 are connected.

In FIG. 6 there are several such elements 140, 142 and 146 between the Tcleskopnbschnitte 106 and 108, with section 108 firmly connected, shown. the Circumferential clearances 148, 150 and 152 between the axially extending members 140, 142 and 146 are filled with pressurized concrete, this hardened concrete for mutual bracing the telescopic sections is used.

Another modification of the invention is shown in FIG. 7, with the upper portion 116 attached its lower end 156 by welding or the like with three or more axially extending ribs 166 is connected. These ribs are aligned with wall surface 158 of the section below 114, with a minimum of clearance between the ribs 166 and the wall surface 158 provided is. As concrete 162 is pumped into the Tclcskopabschnittc it will find its way into the Circumferential gaps (not shown) between the ribs 166, similar to the embodiment according to FIG. 6. In addition, the concrete 162 can in the gap 164 between the uppermost, radially inward extending circumferential ring 168 and the

to get to cut 116. The penetrating into this gap 164 and filling it 162 can as Potting material is used for the liquid sealing of the telescopic sections. Also can the top surface 176 of the annular band may be designed to be inclined in order to allow liquid to drain away from this gap 164 cause away. A compressible element like ζ. Β an elastic seal made of rubber or a similar material, between the ribs 166 and the circumferential ring

ao switched to support the seal even further. The bevel 180 at the upper end of the ribs 166 makes it easier to put them into one another Sections prior to the discharge of the pressurized concrete.

1 sheet of drawings

Claims (7)

Patent claims: 1. Process for the manufacture of a mast, which consists of a jacket formed by tubular axles of graduated diameter and a concrete filling. characterized in that a telescopic form (K)) with mutually sealed sections (20, 22 and 24 or 106, 108, 110, 112, 114, 116 and 118) is anchored in a rigid foundation, so that liquid concrete is pumped into this form until the telescopic shape has reached its extended position. and that the pressure of the liquid concrete is maintained until it hardens. 2. Ancestors according to claim 1. characterized s.ekennzeichne ¹ that the [iinpumping des Beton.-, takes place in the section adjacent to the foundation. 3. Teleskoplorm for performing the method according to claim! or 2. marked by tension wires (28). those within the mold between the uppermost section (24) and the Fundani nt are clamped in the extended position of the mold. 4. telescopic form for carrying out the method according to claim 1 or 2 or according to claim \ dad -eh in that the upper end of tines portions "· g ^r with ößerern Durchmesscr an inner circumferential ring and the lower portion with a Lüde kleherem Durch'.ie -> this has e'tien outer circumferential ring. 5. Teleskoplorm for performing the method according to claim 1 or 2 or spoke 3. characterized in that a plurality of axially extending ribs (166) is arranged at the lower end of a section with a smaller diameter and that the upper end of a section with a larger diameter has an inner peripheral ring (168). 6. Telescopic mold according to one of claims 3 to 5, characterized in that the section with the smallest diameter (24) has at least ¹ · one opening (26 or 120) for the passage of air. 7. Telescopic form according to one of claims 3 hisfi. characterized in that the portion with the largest diameter itself forms the foundations 5 ^il ment.